JP4205702B2 - Frequency selection method and apparatus for connect mode terminal in MBMS mobile communication system - Google Patents

Abstract

A method and apparatus for selecting the PL of an interested MBMS service for a UE in an MBMS mobile communication system are provided. A connected mode UE receives FLC applicability information for an interested MBMS service and keeps a current frequency or reselects to the PL of the MBMS service according to the FLC applicability information. Even if the FLC applicability information restricts FLC from the connected mode UE, the connected mode UE can reselect to the PL of the MBMS service according to its priority level.

Description

  The present invention relates to a multimedia broadcast / multicast service (hereinafter referred to as “MBMS”), and in particular, controls the selection of a frequency layer for a connected mode terminal to receive a desired MBMS service. It is about how to do.

  Recently, with the development of communication technology, services provided by mobile communication systems using Wideband Code Division Multiple Access (CDMA) can transmit packet data or multimedia data as well as conventional voice services. Has developed into a multi-media broadcast / communication service. Therefore, in order to support multimedia broadcasting / communication, MBMS that provides services to a plurality of user terminals (UE) from one or a plurality of multimedia data sources has been discussed.

  MBMS is a service that transmits the same multimedia data to a plurality of recipients through a wireless network. At this time, it is possible to save radio transmission resources by allowing a plurality of receivers to share one radio channel. MBMS supports FLC (Frequency Layer Convergence) for more efficient use of radio resources. FLC is a process in which a specific service is not provided through all frequencies overlapping in the same region, but is provided only with one specific frequency, and a terminal that is to receive the service is moved to the specific frequency. . The specific frequency is referred to as a priority frequency (Preferential Frequency) or a priority frequency layer (hereinafter referred to as “PL”) of the corresponding service. The terminal performs an MBMS frequency selection procedure by FLC.

  When an MBMS session of the MBMS service is started, a priority frequency for the MBMS service, that is, PL is determined by RRM (Radio Resource Management). At this time, since the idle mode terminal does not have associated traffic, even if an idle mode terminal joined to the MBMS service from a different frequency layer moves to the PL, the system resource status may be increased. Has no effect. However, a connected mode terminal that is receiving a dedicated traffic service may have related traffic and may not receive the dedicated service in the PL due to the availability of the PL radio resources. That is, when the PL wireless resource does not accommodate the traffic of the connected mode terminal, the dedicated service of the connected mode terminal is interrupted.

Accordingly, an object of the present invention proposed to solve the above-described problems of the prior art is to provide a method and apparatus for selecting FLC application or restriction of a connect mode terminal that has joined an MBMS. .
It is another object of the present invention to provide a method and apparatus for a network to determine whether or not the FLC is applied or restricted for a connect mode terminal that has joined MBMS in consideration of the radio resource status of PL in MBMS.
An object of the present invention is to provide a method and an apparatus for transmitting information related to applicability of FLC for a connect mode terminal to the connect mode terminal.
It is another object of the present invention to provide an operation and structure of a connect mode terminal according to information on whether FLC is applicable for the connect mode terminal.

In order to achieve the above object, the present invention provides a frequency layer selection method by a connect mode terminal in a multimedia broadcasting / multicast service (MBMS) mobile communication system, wherein the connect mode terminal has a non-priority frequency. Receiving a message including priority frequency information related to a priority frequency layer (PL) of an MBMS service from a radio network controller (RNC), when the priority frequency information is located in a layer (NPL); characterized in that it is configured to include a step of selectively performing the frequency selection procedure, the by whether including PL service restriction information.

Further, the present invention is a terminal device for selecting a frequency for MBMS in a connected mode in a multimedia broadcasting / multicast service (MBMS) mobile communication system, and related to the MBMS PL from a radio network controller (RNC). A message receiving unit that receives a message including priority frequency information , and a service control unit that selectively performs a frequency selection procedure according to whether the priority frequency information includes PL service restriction information. .

  The present invention is a method in which a radio network controller controls frequency selection of a connect mode terminal in a multimedia broadcasting / multicast service (MBMS) mobile communication system, and a connect mode terminal located in a controlled cell is desired. Determining priority frequency information including PL service restriction information for restricting movement to the PL of the MBMS, and transmitting a message including the determined priority frequency information to the connected mode terminal. It is characterized by comprising.

  In the present invention, the MBMS priority frequency to be received by the connect mode terminal, that is, the radio resource state for the PL is provided to the connect mode terminal, so that the traffic for the MBMS cannot be accommodated at the MBMS priority frequency. There is an effect to prevent.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following, when it is determined that a specific description regarding a known function or configuration related to the present invention may obscure the gist of the present invention, a detailed description thereof will be omitted.
FIG. 1 is a diagram illustrating a simplified configuration of an MBMS mobile communication system. Here, an example of UTRAN (Universal Mobile Telecommunication Service) Terrestrial Radios Configuration, which applies MBMS to 3GPP (3rd Generation Project Partnership) system, which is the standard of the third generation asynchronous mobile communication system.

  Referring to FIG. 1, user terminals (UEs) 161, 162, 163, 171, and 172 refer to terminal devices or subscribers that can receive MBMS. The first and second cells 160 and 170 are controlled by a base station apparatus, that is, a Node B, as a geographical or logical area for wirelessly transmitting MBMS related data to subscribers. A radio network controller (hereinafter referred to as “RNC”) 140 is configured to control these cells 160 and 170, selectively transmit multimedia data to specific cells, and provide MBMS. Control the wireless channel. The connection between the RNC 140 and the UEs 161 to 172 is called an RRC (Radio Resource Control) interface.

  The RNC 140 is connected to a packet switched or packet service (PS) network such as the Internet by a service packet radio service support node (Serving GPRS Support Node: hereinafter referred to as “SGSN”) 130. Communication between the RNC 140 and the PS network is performed by packet switching signaling. In particular, the connection between RNC 140 and SGSN 130 is referred to as the Iu-PS interface.

  The SGSN 130 controls the MBMS related services of each subscriber. Representative examples of the roles of the SGSN 130 include a role of managing service charging related data of each subscriber and a role of selectively transmitting multimedia data to a specific RNC 140.

  The transport network 120 provides a communication path between the BM-SC (Broadcast Multicast Service Center) 110 and the SGSN 130 and can be connected to an external network through a GGSN (Gateway GPRS Support Node; not shown). it can. The BM-SC 110 is responsible for MBMS data scheduling as a source of MBMS data. The MBMS data stream generated by the BM-SC 110 is transmitted to the UEs 161, 162, 163, 171, and 172 via the transport network 120, the SGSN 130, the RNC 140, and the first and second cells 160 and 170.

Hereinafter, an example of a cell structure overlapping with a region that provides the same MBMS service will be described with reference to FIG. As shown in FIG. 2, a plurality of frequencies, that is, regions covered by the first frequency layer f1 and the second frequency layer f2 are spatially overlapped in a region A that provides a specific MBMS service. Here, a cell having each frequency layer f1 or f2 or f1 or f2 that is overlapped is referred to as a frequency layer.
The FLC does not provide one service in all frequency layers f1 and f2 overlapping in the region A, but provides a service using only one frequency for each possible service. Is a scheme for moving the signal to the corresponding frequency. In the cell structure as shown in FIG. 2, when the PL for a specific MBMS service B is f2, the terminal of the frequency layer f1 in the region A can start the MBMS service B session during and during the session. In order to receive B, the cell moves to the frequency layer of f2, that is, performs cell reselection. UTRAN informs the terminal on f1 that it will move to f2 when the MBMS service B session starts and during the session. At this time, f2 is the PL of MBMS service B, and f1 is the NPL of MBMS service B.

  However, even if the MBMS service B is NPL, it is not always available. If the signal strength measurement result of the PL for providing the MBMS service B is insufficient, the MBMS service B can be provided by the RRM at the NPL for the terminals left in the NPL. Compared with NPL, PL can mainly provide the specific service or provide only the specific service. In the above description, the example in which the PL for the MBMS service B is fixed to f2 is given. However, the PL for the MBMS service B may be different depending on the region. For example, f2 becomes the PL of MBMS service B in some areas, but f1 becomes the PL of MBMS service B in other areas. The PL of the MBMS service is determined by the cell structure policy of the system operator and the state of radio resources of the currently used cell. According to the 3GPP standard, the FLC process indicating the relationship between the MBMS service and the corresponding PL is applied from the start of the session of each MBMS service to the end of the session.

  An idle mode terminal subscribed to the MBMS service is in a state where there is no connection with UTRAN and no data transmission. Therefore, it is possible to move from NPL to PL regardless of the availability of radio resources. On the other hand, the connected mode terminal is one of CELL_FACH (Cell Forward Access Channel), CELL_PCH (Cell Paging Channel), URA_PCH (UMTS Registration Area Paging Channel), CELL_DCH (Cell Ded) It is determined whether to move according to the availability of radio resources to the PL.

  CELL_FACH is a state in which a dedicated physical channel is not allocated to the terminal and a shared transmission channel is used. In the CELL_PCH state, the terminal has neither a dedicated physical channel nor a dedicated logical channel. The URA_PCH state is almost similar to CELL_PCH, and is used when the mobility of the terminal is large and there is a burden due to cell update. Finally, in the CELL_DCH state, the terminal can use the assigned dedicated physical channel.

  In the MBMS mobile communication system, UTRAN can select the FLC application or restriction of the connected mode terminal according to the radio resource state of the corresponding PL. UTRAN performs a determination by RRM, and transmits information based on the determination result to a terminal in a controlled cell. The connected mode terminal operates according to the determination result. The FLC scheme according to the present embodiment is particularly applicable to a terminal in a CELL_FACH state or a CELL_DCH state.

Hereinafter, an operation of the RNC for determining the application or restriction of the FLC of the terminal will be described in detail with reference to FIG.
FIG. 3 is a flowchart illustrating a procedure for determining whether or not an FLC can be applied to a connected mode terminal according to an exemplary embodiment of the present invention.
Referring to FIG. 3, the RNC measures PL radio resources for the MBMS currently in progress in order to determine whether or not the FLC can be applied to the connected mode terminal located in the NPL in step 201.
In step 203, the RNC determines whether the measured radio resource can accommodate the related traffic of the connected mode terminal. At this time, the radio resources for the PL are sufficient, or the total number of connected mode terminals that are located in the NPL and subscribe to the MBMS service, or the number of terminals for each state of the connected modes CELL_FACH, CELL_PCH, URA_PCH, and CELL_DCH Etc. can be considered. If the measured radio resource can accommodate the related traffic of the connected mode terminal, the RNC decides to apply FLC to the connected mode terminal located in the NPL, and proceeds to step 205.

  In step 205, the RNC sets FLC_DI (FLC Disabled indication for connected mode UE) indicating whether FLC is applicable to “N” and transmits the information to a connected mode terminal related to the MBMS service. Here, “N” means performing FLC. In this case, UTRAN can provide non-MBMS with MBMS PL.

  In step 203, if the measured radio resource cannot accommodate the traffic related to the connected mode terminal, the RNC determines not to apply FLC to the connected mode terminal, and proceeds to step 207. In step 207, the RNC sets FLC_DI to "Y" and transmits it to the corresponding terminal. Here, “Y” means that FLC is not performed. In this way, when FLC_DI is set to “Y”, the dedicated traffic service except for the MBMS service having the PL is restricted. That is, UTRAN does not provide any non-MBMS service on the MBMS preferred frequency. Therefore, FLC_DI set to “Y” is referred to as PL service restriction information.

  The FLC_DI value may be a 1-bit flag value indicating that FLC is applied to or limited to a terminal in a connected mode terminal or a terminal in a specific RRC state (for example, CELL_FACH state). As another embodiment, the FLC_DI may be given as a 4-bit bitmap or a 2-bit integer value when the network intends to indicate FLC application or FLC restriction respectively according to the four states of the connected mode.

  For example, if a 4-bit bitmap is used, the first bit indicates the URA_PCH state, the second bit indicates the CELL_PCH state, the third bit indicates the CELL_FACH state, the fourth bit indicates the CELL_DCH state, and the FLC in each state Indicates applicability. For example, if the bitmap is ‘0011’, the terminal in the CELL_FACH and CELL_DCH states does not apply FLC, and the terminal in the URA_PCH and CELL_PCH states instructs the application of FLC.

  As another example, when a 2-bit integer value is used, 00 indicates a CELL_DCH state, 01 indicates a CELL_FACH state, 10 indicates a CELL_PCH state, and 11 indicates a URA_PCH state. In this case, if the integer value is '01', the terminal in CELL_FACH state restricts FLC, and the terminals in CELL_DCH, CELL_PCH, and URA_PCH apply FLC.

FIG. 4 is a flowchart illustrating an operation of a connected mode terminal for receiving FLC applicability information according to an exemplary embodiment of the present invention. Here, FLC_DI is set as a 1-bit flag value according to the present embodiment.
Referring to FIG. 4, in step 222, the mobile station receives an FLC notification (FLC_notification) message including MBMS priority frequency information through shared signaling or dedicated signaling. The MBMS priority frequency information includes a service ID indicating an MBMS service performing FLC, priority frequency information indicating a PL of the MBMS service, an MBMS offset, FLC_DI, and the like.

In step 224, the terminal that has received the MBMS priority frequency information checks whether the service ID indicates the MBMS service to which the terminal has subscribed. If the service ID does not indicate the MBMS service subscribed to by the terminal, the terminal does not perform FLC in step 234 and maintains the current cell, that is, the current frequency.
If the service ID indicates the MBMS to which the terminal is subscribed, the terminal confirms FLC_DI in step 226. If FLC_DI is set to “Y”, the terminal does not need to apply FLC, and the process proceeds to step 234. In step 234, the terminal maintains the current frequency without performing operations such as measurement for PL and reselection to PL. Even if the current frequency is NPL, if there are sufficient available resources in the current frequency, an MBMS service to be received at the current frequency can be provided to the terminal. Whether or not a service for NPL can be provided can be determined by the terminal receiving MBMS control information transmitted by NPL.

  If the FLC_DI value is set to 'N' in step 226, the terminal proceeds to step 228 and determines whether the current frequency is NPL. If it is determined that the terminal is located in the NPL, in step 230, the terminal performs cell reselection to the PL. If it is determined that the terminal is not located in the NPL, the process proceeds to step 234 to maintain the current frequency.

  In step 230, cell reselection is performed based on the measurement result of signal strength for the PL indicated by the FLC notification message received in step 222 above. The MBMS offset value is used as a factor for increasing the cell reselection probability to the PL.

  In the present invention described above, the FLC_DI has been described as an example in which whether or not the FLC is applied to a connected mode terminal or a terminal in a specific RRC state is indicated by a 1-bit flag value. However, the 1-bit flag can be given as a 4-bit bitmap or 2-bit integer value when it is separately determined whether or not FLC can be applied depending on the state of the connect mode.

FIG. 5 is a flowchart for receiving FLC applicability information as a 1-bit flag according to another embodiment of the present invention. Here, the terminal checks the FLC_DI only when it is currently located in the NPL, and performs the service selection procedure according to the priority when the FLC_DI is 'Y'.
Referring to FIG. 5, in step 302, the UE receives an FLC notification message including MBMS priority frequency information through shared signaling or dedicated signaling. The MBMS priority frequency information includes a service ID indicating an MBMS service performing FLC, priority frequency information indicating PL, an MBMS offset, FLC_DI, and the like. In step 303, the terminal checks whether the service ID indicates an MBMS service to which the terminal has subscribed. If the service ID does not indicate the MBMS service to which the terminal has subscribed, the process proceeds to step 311 and the terminal maintains the current cell, that is, the current frequency without applying FLC.

If the service ID indicates the MBMS service subscribed to by the terminal, in step 312, the terminal determines whether the current frequency is NPL. If it is determined that the current frequency is not NPL, the process proceeds to step 311 and the terminal maintains the current frequency without applying FLC. If the terminal determines that the current frequency is NPL, the process proceeds to step 321.
In step 321, the terminal confirms FLC_DI. If FLC_DI is set to 'Y', the UE selects one of the dedicated traffic service currently being received in step 323 and the MBMS service for FLC application included in the FLC notification message. select. The terminal selects a high priority service through an interaction with the user or NAS (Non Access Stratum).

After selecting the service, the terminal checks whether the service selected in step 324 is an MBMS service included in the FLC notification message, that is, an MBMS service having a PL. As a result of the confirmation, if the MBMS service has the PL, the terminal cancels or gives up the dedicated traffic service in step 325 and proceeds to step 322. In step 322, the UE performs operations such as signal strength measurement on the PL for the selected MBMS service and reselection to the PL based on the measurement result.
If the selected service is a dedicated traffic service, the terminal proceeds to step 311 and does not apply the FLC, and continuously receives the dedicated traffic service while maintaining the current frequency.

  In the present invention described above, the FLC_DI has been described as an example in which whether or not the FLC is applied to a connected mode terminal or a terminal in a specific RRC state is indicated by a 1-bit flag value. However, the 1-bit flag can be given as a 4-bit bitmap or 2-bit integer value when it is separately determined whether or not FLC can be applied depending on the state of the connect mode.

FIG. 6 is a diagram illustrating a message procedure for transmitting / receiving MBMS priority frequency information according to an exemplary embodiment of the present invention. Here, reference numeral 408 indicates an NPL for a specific MBMS service, and reference numeral 409 indicates a PL for the MBMS service. The area covered by NPL and PL overlaps with the MBMS service area. Reference numeral 410 indicates an RNC that manages NPL and PL radio resources for this MBMS service.
Referring to FIG. 6, in step 411, the RNC 410 receives a session start message for one session of the MBMS service from the SGSN of the core network. This session start message notifies that work such as setting of a radio bearer for starting an MBMS session is preceded. The session start message includes a service ID, QoS (Quality of Service) information, and the like.

  In step 421, upon receiving the session start message, the RNC 410 transmits an FLC notification message to the NPL 408 as signaling for the FLC. This FLC notification message includes service ID, priority frequency information indicating PL, MBMS offset, FLC_DI, and the like. At this time, the service ID indicates the MBMS service corresponding to the session, and the priority frequency information indicates the PL of the MBMS service. The MBMS offset indicates a threshold value to be compared with the PL signal strength measurement result when the NPL terminal reselects to the PL. FLC_DI indicates whether or not the connect mode terminal can apply FLC.

  In step 431, the connected mode terminal of the NPL 408 that has received the FLC notification message operates according to the FLC_DI of the FLC notification message. If FLC_DI is 'N', the connected mode terminal performs reselection to PL 409 according to the measurement result based on PL 409. If FLC_DI is 'Y', the connected mode terminal performs service selection according to priority among the dedicated traffic service currently being received at the frequency and the MBMS service to which the FLC indicated by the FLC notification message is applied. When the MBMS service is selected, the connected mode terminal interrupts the dedicated traffic service and performs reselection to the corresponding PL according to the measurement result for the selected MBMS service PL. Meanwhile, when the dedicated traffic service is selected, the connected mode terminal continuously receives the dedicated traffic service while maintaining the current frequency, and does not perform cell reselection.

At this time, when the FLC notification message is received, the idle mode terminal located in the NPL 408 moves to the PL 409 if the signal strength measurement result for the PL 409 is sufficient regardless of the FLC_DI of the FLC notification message.
Before the MBMS service session starts, the RNC 410 performs a procedure for counting the number of terminals and the like that receive the MBMS service, channel type determination, radio bearer setting, and the like between steps 431 to 441.

  When an MBMS service session starts in step 441, the RNC 410 periodically transmits an FLC notification message to the MBMS service session in steps 451 and 452. This is to support the mobility of a terminal located in a cell controlled by the RNC 410. When the NPL 408 terminal receives the FLC notification message transmitted periodically, when the FLC is necessary, the NPL 408 terminal transmits the cell information to the PL 409 based on the service ID, the priority frequency information, and the FLC_DI of the FLC notification message in step 461. Carry out reselection.

In the present invention described above, the FLC_DI has been described as an example in which whether or not the FLC is applied to a connected mode terminal or a terminal in a specific RRC state is indicated by a 1-bit flag value. However, the 1-bit flag can be given as a 4-bit bitmap or 2-bit integer value when it is separately determined whether or not FLC can be applied depending on the state of the connect mode.
As described above, the connect mode terminal can efficiently perform FLC by knowing PL resource availability information for a desired MBMS service through FLC_DI.

FIG. 7 is a block diagram illustrating a configuration of an RNC that transmits MBMS priority frequency information according to an exemplary embodiment of the present invention. As illustrated, the RNC includes a radio resource management unit 710, an FLC control unit 720, and a message transmission unit 730. Here, a broadcast transmission unit for transmitting MBMS broadcast data is not shown.
Referring to FIG. 7, the radio resource management unit 710 manages radio resources of cells controlled by the RNC, and measures the amount of available radio resources for each cell frequency. The FLC controller 720 determines whether or not the radio resource measured for the specific MBMS service PL can accommodate the related traffic of the dedicated traffic service that the connect mode terminal is currently receiving. Here, the dedicated traffic service means a non-MBMS service. That is, the FLC controller 720 is measured in consideration of the number of connected mode terminals that have subscribed to the MBMS service or the number of terminals that are in a specific state in the connected mode while being located in the NPL of the MBMS service. It is determined whether the wireless resource can accommodate the related traffic of the connected mode terminal, and the MBMS priority frequency information is determined based on the determination result. That is, the FLC control unit 720 determines the priority frequency of the MBMS service at which the session starts, and determines whether to include the PL service restriction information in the priority frequency information. The MBMS priority frequency information does not include PL service restriction information when the measured radio resource can accommodate the related traffic of the connected mode terminal, and does not include PL service restriction information otherwise. Here, the PL service restriction information is, for example, when FLC_DI is set to “Y”. In another embodiment, the FLC controller 720 may determine whether to include the PL service restriction information in the MBMS priority frequency information according to other criteria such as MBMS service policy or service provider selection. . The message transmission unit 730 transmits the set MBMS priority frequency information by a message including general information related to the MBMS service that can be provided, such as the FLC notification message mentioned above.

  When the PL service restriction information is included in the MBMS priority frequency, the broadcast transmission unit does not provide a non-MBMS service at the MBMS priority frequency. On the other hand, when the PL service restriction information is not included in the MBMS priority frequency, the broadcast transmission unit can provide a non-MBMS service at the MBMS priority frequency.

FIG. 8 is a block diagram illustrating a structure of a terminal capable of using a priority frequency for an MBMS service according to an embodiment of the present invention. The terminal includes a message receiving unit 810, a service control unit 820, and a data receiving unit 830.
Referring to FIG. 8, the message receiver 810 receives a message including general information related to the MBMS service subscribed to by the terminal, and obtains priority frequency information indicating the PL of the MBMS service from the message. The service control unit 820 performs the above-described procedure of FIG. 4 or FIG. That is, when the terminal is located at the PL, the service control unit 820 determines that the current frequency is maintained without performing the MBMS frequency selection procedure. In this case, the broadcast receiving unit 830 continuously receives the dedicated traffic service while maintaining the current frequency.

  On the other hand, if the terminal is located in the NPL and the MBMS priority frequency information does not include the PL service restriction information, the service control unit 820 determines to move to the MBMS service PL. In this case, the data receiving unit 830 measures the signal strength of the PL, and when the signal strength measurement result exceeds a predetermined threshold, moves to the PL and continuously receives the dedicated traffic service.

  On the other hand, when the terminal is located in the NPL and the MBMS priority frequency information includes the PL service restriction information, the service control unit 820 includes a dedicated traffic service received at the current frequency and performs a service selection procedure according to the priority order. Can be carried out. If the service selected by the service selection procedure is an MBMS service having a PL service, the data reception unit 830 stops the dedicated traffic service and moves to the PL of the selected MBMS service under the control of the service control unit 820. The broadcast data of the selected MBMS service is received.

  Although specific embodiments of the present invention have been described in detail above, it is obvious to those skilled in the art that various modifications can be made without departing from the scope of the present invention. That would be true. Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined based on the scope of claims and the equivalents to the scope of claims.

It is a figure which shows the simplified structure of the MBMS mobile communication system. It is a figure which shows an example with respect to the cell layer structure which overlaps with the area which provides the same MBMS service. FIG. 6 is a diagram illustrating a procedure for determining whether or not an FLC can be applied to a connected mode terminal according to an embodiment of the present invention. 4 is a flowchart illustrating an operation of a connected mode terminal that receives FLC applicability information according to an exemplary embodiment of the present invention. 7 is a flowchart illustrating an operation of a connected mode terminal that receives FLC applicability information according to another embodiment of the present invention. 4 is a flowchart illustrating signals for transmitting and receiving MBMS priority frequency information according to an exemplary embodiment of the present invention. FIG. 3 is a block diagram illustrating a configuration of an RNC that transmits MBMS priority frequency information according to an exemplary embodiment of the present invention. 1 is a block diagram illustrating a configuration of a terminal that can use a priority frequency for an MBMS service according to an exemplary embodiment of the present invention.

Explanation of symbols

110 BM-SG
130 SGSN (Service Packet Radio Service Support Node)
140 RNC (Network Controller)
161, 162, 163, 171, 172 UE (user terminal)
160 First cell 170 Second cell 710 Radio resource management unit 720 FLC control unit 730 Message transmission unit 810 Message reception unit 820 Service control unit 830 Data reception unit

Claims (24)

A frequency layer selection method by a connect mode terminal in a multimedia broadcasting / multicast service (MBMS) mobile communication system,
When the connected mode terminal is located in a non-priority frequency layer (NPL), a message including priority frequency information related to the priority frequency layer (PL) of the MBMS service is received from a radio network controller (RNC). And the stage of
A step of selectively performing a frequency selection procedure according to whether the preferred frequency information includes PL service restriction information,
A method characterized by comprising. If the priority frequency information does not include the PL service restriction information, the priority frequency information moves to the priority frequency.
The method of claim 1, further comprising the step of: The method of claim 1, further comprising maintaining a current frequency when the priority frequency information includes the PL service restriction information. The connected mode UE is come not located in the NPL, when the message is received, the method according to claim 1, further comprising the step of keeping the current frequency.   The priority frequency information includes the PL service restriction information when the PL radio resource cannot accommodate the traffic of a terminal in a connected mode or a specific RRC (Radio Resource Control) state in which the MBMS is to be received. The method of claim 1 wherein:   The method according to claim 1, wherein the PL service restriction information has a bitmap or an integer value indicating whether or not frequency layer convergence (FLC) is applicable depending on each state of the connection mode. When the terminal is located in a non-priority frequency layer and the priority frequency information includes restriction information of the PL service, performing a service selection procedure according to priority by service;
The method of claim 1 , further comprising the step of determining whether to maintain a current frequency according to a result of the service selection procedure . When the service selected by the service selection procedure is a dedicated traffic service at the current frequency, The method according to claim 7, further comprising the step of keeping the current frequency. If the service selected by the service selection procedure is an MBMS service having a corresponding priority frequency, a step of stopping the dedicated traffic service being received at the current frequency and moving to the PL of the selected MBMS is further included. 8. The method of claim 7 , comprising: A terminal device for selecting a frequency for MBMS in a connect mode in a multimedia broadcast / multicast service (MBMS) mobile communication system,
A message receiving unit for receiving a message including priority frequency information related to the MBMS PL from a radio network controller (RNC);
A service control unit that selectively performs a frequency selection procedure according to whether the priority frequency information includes PL service restriction information;
The apparatus characterized by including. The apparatus of claim 10, wherein the service controller determines whether the terminal is located in a non-priority frequency layer of the MBMS service or whether the priority frequency information includes the PL service restriction information. . If the terminal is located in the NPL and the priority frequency information does not include the PL service restriction information, the terminal moves to the PL to receive the MBMS, the terminal is located in the NPL, and the priority The apparatus according to claim 10 or 11, further comprising a data receiving unit that maintains a current frequency when the frequency information includes the PL service restriction information. The apparatus of claim 10 , wherein the data receiving unit maintains the current frequency when the connected mode terminal is not located in the NPL. Wherein the service control unit, located in the connected mode UE is the NPL, when the preferred frequency information includes the PL service restriction information, characterized by performing the service selection procedure based on service priority Item 10. The apparatus according to Item 10 or 11. The data receiving unit maintains the current frequency when a dedicated traffic service being received at the current frequency is selected, and cancels the dedicated traffic service being received at the current frequency when the MBMS service is selected. 15. The apparatus according to claim 14 , wherein the apparatus moves to a PL of the selected MBMS service. The priority frequency information includes the PL service restriction information when a radio resource of the PL cannot accommodate traffic of a terminal in a connected mode or a specific RRC state in which the MBMS is received. Item 10. The apparatus according to Item 10 . The apparatus according to claim 10, wherein the PL service restriction information has a bitmap or an integer value indicating whether or not frequency layer convergence (FLC) is applicable depending on each state of the connect mode. A method in which a radio network controller controls frequency selection of a connect mode terminal in a multimedia broadcast / multicast service (MBMS) mobile communication system, comprising:
Determining priority frequency information including PL service restriction information for restricting a connected mode terminal located in a controlled cell from moving to a desired MBMS PL;
Transmitting a message including the determined priority frequency information to the connected mode terminal;
A method characterized by comprising. The priority frequency information includes the PL service restriction information when a radio resource of the PL cannot accommodate traffic of a terminal in a connected mode or a specific RRC state in which the MBMS is received. Item 19. The method according to Item 18 . The method according to claim 18, wherein the PL service restriction information has a bitmap or an integer value indicating whether or not frequency layer convergence (FLC) is applicable depending on each state of the connect mode. An apparatus of a radio network controller for controlling frequency selection of a connect mode terminal or the like in a multimedia broadcast / multicast service (MBMS) mobile communication system,
An FLC control unit for determining priority frequency information including PL service restriction information for restricting a connected mode terminal located in a controlled cell from moving to a desired MBMS PL;
A message transmission unit for transmitting a message including the determined priority frequency information to the connect mode terminal;
The apparatus characterized by including. The priority frequency information includes the PL service restriction information when a radio resource of the PL cannot accommodate traffic of a terminal in a connected mode or a specific RRC state in which the MBMS is received. Item 21. The apparatus according to Item 21 . The apparatus according to claim 21, wherein the PL service restriction information has a bitmap or an integer value indicating whether or not frequency layer convergence (FLC) is applicable depending on each state of the connect mode. The radio network controller controls the radio resources controlled by the radio network controller, measures the amount of radio resources available for each cell frequency, and is used to determine the priority frequency information. The apparatus of claim 21 , further comprising a radio resource manager that provides radio resources to the FLC controller.

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